Quantitative Phase Imaging (QPI) provides unique means for the imaging of biological or
technical microstructures, merging beneficial features identified with microscopy …

Optical interferometry is a powerful tool for measuring and characterizing areal surface
topography in precision manufacturing. A variety of instruments based on optical …

We report on a novel computational technique for automatic numerical refocusing in digital
in-line holographic microscopy. It is based on the adaptive filtering of the recorded on-axis …

The conventional reconstruction method of off-axis digital holographic microscopy (DHM)
relies on computational processing that involves spatial filtering of the sample spectrum and …

Utilizing the refractive index as the endogenous contrast agent to noninvasively study
transparent cells is a working principle of emerging quantitative phase imaging (QPI). In this …

Phase retrieval from a single-frame interferogram is a meaningful approach in dynamic and
real-time interferometry. However, existing demodulation methods are susceptible to real …

Single-shot, two-frame, π-shifted spatially multiplexed interference microscopy (π-SMIM) is
presented as an improvement to previous SMIM implementations, introducing a versatile …

Fringe analysis has been at the forefront of research due to its ubiquity in many optical
measurement techniques such as electronic speckle interferometry, shearography, and …

We present a new quantitative approach for phase retrieval that is derived from the analysis
of light intensity propagation through a phase object and a sinusoidal intensity mask …

Phase retrieval from a single-frame interferogram is a challenge in optical interferometry.
This paper proposes an accurate physics-based deep learning method for one-shot phase …